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References 187 Hoff, E., & Tian, C. (2005). Socioeconomic status and cultural influences on language. Journal of Communication Disorders, 38(4), 271-278. Höhle, B., Weissenborn, J., Schmitz, M., & Ischebeck, A. (2001). Discovering word order regularities: The role of prosodic information for early parameter setting. In J. Weissenborn & B. Höhle (Eds.), Approaches to bootstrapping: phonological, lexical, syntactic and neurophysiological aspects of early language acquisition (pp. 249-265). Amsterdam: John Benjamins. Holcomb, P. J., & Neville, H. (1991). Natural speech processing: An analysis using event-related brain potentials. Psychobiology, 19(4), 286-300. Hollich, G. J., Jusczyk, P. W., & Luce, P. A. (2002). Lexical neighborhood effects in 17-month-old word learning. In Proceedings of the 26th Annual Boston University Conference on Language Development (pp. 314–323). Boston, MA: Cascadilla. Homae, F., Hashimoto, R., Nakajima, K., Miyashita, Y., & Sakai, K. L. (2002). From perception to sentence comprehension: the convergence of auditory and visual information of language in the left inferior frontal cortex. Neuroimage, 16(4), 883-900. Howe, M. J. A. (1975). Learning in infants and young children. London: Macmillan. Howe, M. J. A. (1980). The psychology of human learning. New York: Harper & Row. Howe, M. J. A., Davidson, J. W., & Sloboda, J. A. (1998). Innate talents: reality or myth? Behavioral and Brain Sciences, 21(3), 399-407; discussion 407-342. Hoyte, K. J., Brownell, H., Vesely, L., & Wingfield, A. (2006). Decomposing prosody: Use of prosodic features for detection of syntactic structure and speech affect by patients with right hemisphere lesions. Brain and Language, 99(1-2), 35-37. Hoyte, K. J., Kim, A., Brownell, H., & Wingfield, A. (2004). Effects of right hemisphere brain injury on the use of components of prosody for syntactic comprehension. Brain and Language, 91(1), 168-169. Hulin, C. L., Henry, R. A., & Noon, S. L. (1990). Adding a Dimension: Time as a Factor in the Generalizability of Predictive Relationships. Psychological Bulletin, 107(3), 328-340. Hulse, S. H., Takeuchi, A. H., & Braaten, R. F. (1992). Perceptual invariances in the comparative psychology of music. Music Perception, 10(2), 151–184. Hund-Georgiadis, M., & von Cramon, D. Y. (1999). Motor-learning-related changes in piano players and non-musicians revealed by functional magnetic-resonance signals. Experimental Brain Research, 125(4), 417-425. Huron, D. (2001). Is music an evolutionary adaptation? Annals of the New York Academy of Sciences, 930, 43-61. Huron, D., & Ollen, J. O. Y. (2003). Agogic Contrast in French and English Themes: Further Support for Patel and Daniele (2003). Music Perception, 21(2), 267-271. Hutchinson, S., Lee, L. H., Gaab, N., & Schlaug, G. (2003). Cerebellar volume of musicians. Cerebral Cortex, 13(9), 943-949. Huttenlocher, J., Vasilyeva, M., Cymerman, E., & Levine, S. (2002). Language input and child syntax. Cognitive Psychology, 45(3), 337-374. Huttenlocher, P. R. (2002). Neural plasticity: the effects of environment on the development of the cerebral cortex. Cambridge, MA: Harvard University Press. Imada, T., Zhang, Y., Cheour, M., Taulu, S., Ahonen, A., & Kuhl, P. K. (2006). Infant speech perception activates Broca's area: a developmental magnetoencephalography study. Neuroreport, 17(10), 957-962.
References 188 Indefrey, P., Hagoort, P., Herzog, H., Seitz, R. J., & Brown, C. M. (2001). Syntactic processing in left prefrontal cortex is independent of lexical meaning. Neuroimage, 14(3), 546-555. Indefrey, P., & Levelt, W. J. (2004). The spatial and temporal signatures of word production components. Cognition, 92(1-2), 101-144. International Labour Organization. (1990). ISCO88. International Standard Classification of Occupations. Geneve, CH: International Labour Office. James, D. K., Spencer, C. J., & Stepsis, B. W. (2002). Fetal learning: a prospective randomized controlled study. Ultrasound in Obstetrics and Gynecology, 20(5), 431-438. James, W. (1890). The principles of psychology. New York: H. Holt & Company. Janata, P. (1995). ERP measures assay the degree of expectancy violation of harmonic contexts in music. Journal of Cognitive Neuroscience, 7(2), 153-164. Janata, P., Birk, J. L., Van Horn, J. D., Leman, M., Tillmann, B., & Bharucha, J. J. (2002). The cortical topography of tonal structures underlying Western music. Science, 298(5601), 2167-2170. Janata, P., & Grafton, S. T. (2003). Swinging in the brain: shared neural substrates for behaviors related to sequencing and music. Nature Neuroscience, 6(7), 682-687. Janata, P., Tillmann, B., & Bharucha, J. J. (2002). Listening to polyphonic music recruits domain-general attention and working memory circuits. Cognitive, Affective & Behavioral Neuroscience, 2(2), 121-140. Jäncke, L., Gaab, N., Wüstenberg, T., Scheich, H., & Heinze, H. J. (2001). Short-term functional plasticity in the human auditory cortex: an fMRI study. Brain Research. Cognitive Brain Research, 12(3), 479-485. Jäncke, L., Schlaug, G., & Steinmetz, H. (1997). Hand skill asymmetry in professional musicians. Brain and Cognition, 34(3), 424-432. Jäncke, L., Shah, N. J., & Peters, M. (2000). Cortical activations in primary and secondary motor areas for complex bimanual movements in professional pianists. Brain Research. Cognitive Brain Research, 10(1-2), 177-183. Jasper, H. H. (1958). Ten-twenty electrode system of the International Federation. Electroencephalography and Clinical Neurophysiology, 10, 371-373. Jeannerod, M., Arbib, M. A., Rizzolatti, G., & Sakata, H. (1995). Grasping objects: the cortical mechanisms of visuomotor transformation. Trends in Neurosciences, 18(7), 314-320. Jentschke, S., Koelsch, S., & Friederici, A. D. (2005). Investigating the relationship of music and language in children: influences of musical training and language impairment. Annals of the New York Academy of Sciences, 1060, 231-242. Jing, H., & Benasich, A. A. (2006). Brain responses to tonal changes in the first two years of life. Brain and Development, 28(4), 247-256. Joanisse, M. F. (2004). Specific Language Impairments in Children. Phonology, Semantics, and the English Past Tense. Current Directions in Psychological Science, 13(4), 156-160. Joanisse, M. F., & Seidenberg, M. S. (1998). Specific language impairment: A deficit in grammar or processing? Trends in Cognitive Sciences, 2(7), 240-247. Johnson, E. K., & Jusczyk, P. W. (2001). Word Segmentation by 8-Month-Olds: When Speech Cues Count More Than Statistics. Journal of Memory and Language, 44(4), 548-567. Johnston, J. R., & Weismer, S. E. (1983). Mental Rotation Abilities in Language- Disordered Children. Journal of Speech and Hearing Research, 26(3), 397-403.
Page 1 and 2:
Sebastian Jentschke: Neural Correla
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Gutachter der Arbeit Prof. Dr. Ange
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Table of contents 1 Introduction 1
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TABLE OF CONTENTS IX 7 Electroencep
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TABLE OF CONTENTS XI Abbreviations
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Zusammenfassung der wissenschaftlic
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Page 17 and 18:
Page 20 and 21:
1 Introduction Language and music a
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2 Music Perception Music is one of
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Music Perception 5 to her infant re
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Music Perception 7 chronize movemen
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Music Perception 9 at 5 years of ag
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Music Perception 11 keys related by
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Music Perception 13 Krumhansl and S
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Music Perception 15 tion. The proce
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Music Perception 17 MMN paradigms m
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Music Perception 19 In a study, emp
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Music Perception 21 2001a). Janata
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3 Musical Training Performing a pie
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Musical Training 25 Deliberate prac
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Musical Training 27 them to transfe
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Musical Training 29 can be found ev
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Musical Training 31 dition (and onl
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Musical Training 33 without substan
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Musical Training 35 such studies sh
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Musical Training 37 with regard to
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Music and Language 40 Brown (2000)
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Music and Language 42 ture (for a r
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Music and Language 44 Neural constr
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Music and Language 46 pitch registe
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Music and Language 48 functions. Th
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Music and Language 50 found from ve
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Language Perception 52 cross-langua
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Language Perception 54 ing that a w
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Language Perception 56 Perceptual g
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Language Perception 58 Social const
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Language Perception 60 Syntax After
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Language Perception 62 2002; Newpor
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Language Perception 64 Complex synt
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Language Perception 66 which these
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Language Perception 68 interaction
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Language Perception 70 only disrupt
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Language Perception 72 tic structur
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Specific Language Impairment 74 ind
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Specific Language Impairment 76 6.2
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Specific Language Impairment 78 6.3
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Specific Language Impairment 80 (Be
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Specific Language Impairment 82 ply
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Specific Language Impairment 84 mis
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Specific Language Impairment 86 the
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Electroencephalography and Event-Re
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Electroencephalography and Event-Re
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8 Experiments I - IV: Introduction
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Experiment I 96 parents. 13 All chi
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Experiment I 98 patterns in short-t
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Experiment I 100 -1.02 μV, SEM =0.
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Experiment I 102 EAD Figure 9-3 Gra
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Experiment I 104 amplitude size of
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10 Experiment II: Neural correlates
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Experiment II 109 Stimuli and parad
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Experiment II 111 tion of objects;
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Experiment II 113 amplitude in the
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Experiment II 115 as compared to no
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Experiment II 117 negative) amplitu
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Experiment II 119 expectancy of a r
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Experiment II 121 physical judgemen
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11 Experiment III: Neural correlate
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Experiment III 125 periment IV - wh
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Experiment III 127 cational backgro
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Experiment III 129 due to a differe
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Experiment III 131 scalp sites. Pla
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Experiment III 133 of syntactic reg
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Experiment III 135 Even though desc
Page 156: Experiment III 137 ion than in the
Page 159 and 160: Experiment IV 140 cluded), [2] they
Page 161 and 162: Experiment IV 142 12.3 Results Coho
Page 163 and 164: Experiment IV 144 Figure 12-3 summa
Page 165 and 166: Experiment IV 146 p < 0.001). In th
Page 167 and 168: Experiment IV 148 tion cross vs. si
Page 169 and 170: Experiment IV 150 anterior: F(1,39)
Page 171 and 172: Experiment IV 152 An N5 usually fol
Page 174 and 175: 13 Experiment I - IV: Development o
Page 176: Development of the Neural Correlate
Page 179 and 180: General Discussion 160 and Leonard,
Page 181 and 182: General Discussion 162 sent in the
Page 183 and 184: General Discussion 164 economic sta
Page 185 and 186: General Discussion 166 Friederici,
Page 187 and 188: General Discussion 168 year old chi
Page 190 and 191: Lists of figures and tables Figure
Page 192 and 193: References Abney, S. P. (1989). A c
Page 194 and 195: References 175 Bharucha, J. J., & S
Page 196 and 197: References 177 Brattico, E., Tervan
Page 198 and 199: References 179 Creel, S. C., Newpor
Page 200 and 201: References 181 Farrell, M. M., & Ph
Page 202 and 203: References 183 Friedrich, M., & Fri
Page 204 and 205: References 185 logie. Themenbereich
Page 208 and 209: References 189 Jones, M. R. (1982).
Page 210 and 211: References 191 Koelsch, S., & Siebe
Page 212 and 213: References 193 Leonard, L. B. (2000
Page 214 and 215: References 195 McMullen, E., & Saff
Page 216 and 217: References 197 Nobre, A. C., Coull,
Page 218 and 219: References 199 Peretz, I. (1990). P
Page 220 and 221: References 201 Roederer, J. (1984).
Page 222 and 223: References 203 Schöler, H. (2004).
Page 224 and 225: References 205 Sluming, V., Brooks,
Page 226 and 227: References 207 Thompson, W. F., Sch
Page 228 and 229: References 209 Trehub, S. E. (2003c
Page 230: References 211 Weinert, S. (1991).
Page 233 and 234: Appendix A-2 014 incorrect Das Nilp
Page 235 and 236: Appendix A-4 044 correct Der Rasen
Page 237 and 238: Appendix A-6 073 incorrect Die Medi
Page 240 and 241: Curriculum vitae Sebastian Jentschk
Page 242: Selbstständigkeitserklärung Hierm
Page 246 and 247: MPI Series in Human Cognitive and B
Page 248 and 249: 32 André J. Szameitat Die Funktion
Page 250 and 251: 63 Ann Pannekamp Prosodische Inform
Page 252: 96 Marcel Braß Das inferior fronta
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